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1W2V

The 3-dimensional structure of a thermostable mutant of a xylanase (Xyn10A) from Cellvibrio japonicus

Summary for 1W2V
Entry DOI10.2210/pdb1w2v/pdb
Related1CLX 1E5N 1E8R 1QLD 1W2P 1W32 1W3H 1XYS
DescriptorENDO-1,4-BETA-XYLANASE A PRECURSOR, CALCIUM ION, 1,2-ETHANEDIOL, ... (4 entities in total)
Functional Keywordsxylanase, mutant, calcium ion, thermostable, glycosyle hydrolase, family 10, error prone pcr, hydrolase
Biological sourceCELLVIBRIO JAPONICUS
Total number of polymer chains2
Total formula weight77413.68
Authors
Andrews, S.,Taylor, E.J.,Pell, G.N.,Vincent, F.,Ducros, V.M.A.,Davies, G.J.,Lakey, J.H.,Glbert, H.J. (deposition date: 2004-07-09, release date: 2004-09-30, Last modification date: 2024-10-16)
Primary citationAndrews, S.,Taylor, E.J.,Pell, G.N.,Vincent, F.,Ducros, V.M.A.,Davies, G.J.,Lakey, J.H.,Gilbert, H.J.
The Use of Forced Protein Evolution to Investigate and Improve Stability of Family 10 Xylanases: The Production of Ca2+-Independent Stable Xylanases
J.Biol.Chem., 279:54369-, 2004
Cited by
PubMed Abstract: Metal ions such as calcium often play a key role in protein thermostability. The inclusion of metal ions in industrial processes is, however, problematic. Thus, the evolution of enzymes that display enhanced stability, which is not reliant on divalent metals, is an important biotechnological goal. Here we have used forced protein evolution to interrogate whether the stabilizing effect of calcium in an industrially relevant enzyme can be replaced with amino acid substitutions. Our study has focused on the GH10 xylanase CjXyn10A from Cellvibrio japonicus, which contains an extended calcium binding loop that confers proteinase resistance and thermostability. Three rounds of error-prone PCR and selection identified a treble mutant, D262N/A80T/R347C, which in the absence of calcium is more thermostable than wild type CjXyn10A bound to the divalent metal. D262N influences the properties of the calcium binding site, A80T fills a cavity in the enzyme, increasing the number of hydrogen bonds and van der Waals interactions, and the R347C mutation introduces a disulfide bond that decreases the free energy of the unfolded enzyme. A derivative of CjXyn10A (CfCjXyn10A) in which the calcium binding loop has been replaced with a much shorter loop from Cellulomonas fimi CfXyn10A was also subjected to forced protein evolution to select for thermostablizing mutations. Two amino acid substitutions within the introduced loop and the A80T mutation increased the thermostability of the enzyme. This study demonstrates how forced protein evolution can be used to introduce enhanced stability into industrially relevant enzymes while removing calcium as a major stability determinant.
PubMed: 15452124
DOI: 10.1074/JBC.M409044200
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (1.55 Å)
Structure validation

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数据于2024-11-06公开中

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